Response of upper ocean and impact of barrier layer on SIDR cyclone induced sea surface cooling

Lancaster Environment Centre

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https://doi.org/10.1007/s12601-013-0026-x
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Response of upper ocean and impact of barrier layer on SIDR cyclone induced sea surface cooling. / Vissa, Naresh Krishna; ANV, Satyanarayana; Bhaskaran, Prasad Kumar.
In: Ocean Science Journal, Vol. 48, No. 3, 2013, p. 279-288.

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Vissa, Naresh Krishna ; ANV, Satyanarayana ; Bhaskaran, Prasad Kumar. / Response of upper ocean and impact of barrier layer on SIDR cyclone induced sea surface cooling. In: Ocean Science Journal. 2013 ; Vol. 48, No. 3. pp. 279-288.

Bibtex

@article{5c8b4e6987c942bc94504906c0b313f3,

title = "Response of upper ocean and impact of barrier layer on SIDR cyclone induced sea surface cooling",

abstract = "In the present study an attempt has been made to investigate the impact of salinity stratification on the SST during the tropical cyclone (TC) passage. In this context, a severe post monsoon cyclone, Sidr, (Category 4) that developed over the south-eastern Bay of Bengal (BoB) during 11–16 November, 2007 was chosen as a case study. Pre-existence of a thick barrier layer (BL), temperature inversions and a higher effective oceanic layer for cyclogenesis (EOLC) were noticed along the path of the Sidr cyclone. The analysis of available Argo floats along the Sidr cyclone track also revealed less cooling during as well as after its passage as was reported from satellite derived SST. The role of BL on Sidr induced sea surface cooling was investigated using a diagnostic mixed layer model. Model results also depict the reduced sea surface cooling during the passage of Sidr. This is attributed to the presence of BL which results in the inhibition of the entrainment of cool thermocline water into the shallow mixed layer. Climatological as well as in situ observations of tropical cyclone heat potential (TCHP) and EOLC shows that the Sidr cyclone propagated towards the regions of higher EOLC.",

author = "Vissa, {Naresh Krishna} and Satyanarayana ANV and Bhaskaran, {Prasad Kumar}",

year = "2013",

doi = "10.1007/s12601-013-0026-x",

language = "English",

volume = "48",

pages = "279--288",

journal = "Ocean Science Journal",

issn = "2005-7172",

publisher = "Korea Ocean Research and Development Institute",

number = "3",

}

RIS

TY - JOUR

T1 - Response of upper ocean and impact of barrier layer on SIDR cyclone induced sea surface cooling

AU - Vissa, Naresh Krishna

AU - ANV, Satyanarayana

AU - Bhaskaran, Prasad Kumar

PY - 2013

Y1 - 2013

N2 - In the present study an attempt has been made to investigate the impact of salinity stratification on the SST during the tropical cyclone (TC) passage. In this context, a severe post monsoon cyclone, Sidr, (Category 4) that developed over the south-eastern Bay of Bengal (BoB) during 11–16 November, 2007 was chosen as a case study. Pre-existence of a thick barrier layer (BL), temperature inversions and a higher effective oceanic layer for cyclogenesis (EOLC) were noticed along the path of the Sidr cyclone. The analysis of available Argo floats along the Sidr cyclone track also revealed less cooling during as well as after its passage as was reported from satellite derived SST. The role of BL on Sidr induced sea surface cooling was investigated using a diagnostic mixed layer model. Model results also depict the reduced sea surface cooling during the passage of Sidr. This is attributed to the presence of BL which results in the inhibition of the entrainment of cool thermocline water into the shallow mixed layer. Climatological as well as in situ observations of tropical cyclone heat potential (TCHP) and EOLC shows that the Sidr cyclone propagated towards the regions of higher EOLC.

AB - In the present study an attempt has been made to investigate the impact of salinity stratification on the SST during the tropical cyclone (TC) passage. In this context, a severe post monsoon cyclone, Sidr, (Category 4) that developed over the south-eastern Bay of Bengal (BoB) during 11–16 November, 2007 was chosen as a case study. Pre-existence of a thick barrier layer (BL), temperature inversions and a higher effective oceanic layer for cyclogenesis (EOLC) were noticed along the path of the Sidr cyclone. The analysis of available Argo floats along the Sidr cyclone track also revealed less cooling during as well as after its passage as was reported from satellite derived SST. The role of BL on Sidr induced sea surface cooling was investigated using a diagnostic mixed layer model. Model results also depict the reduced sea surface cooling during the passage of Sidr. This is attributed to the presence of BL which results in the inhibition of the entrainment of cool thermocline water into the shallow mixed layer. Climatological as well as in situ observations of tropical cyclone heat potential (TCHP) and EOLC shows that the Sidr cyclone propagated towards the regions of higher EOLC.

U2 - 10.1007/s12601-013-0026-x

DO - 10.1007/s12601-013-0026-x

M3 - Journal article

VL - 48

SP - 279

EP - 288

JO - Ocean Science Journal

JF - Ocean Science Journal

SN - 2005-7172

IS - 3

ER -

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